View clinical trials related to Headache.
Filter by:This is a 68-week study to evaluate the long-term safety and efficacy of fremanezumab in participants with cluster headache (CH). Participants who complete the pivotal studies TV48125-CNS-30056 (NCT02945046) and TV48125-CNS-30057 (NCT02964338) and enroll into the current study will visit the investigational center for investigational medicinal product (IMP) administration, safety and efficacy assessments, and blood and urine collections for pharmacokinetics, immunogenicity (anti-drug antibodies [ADAs]), and biomarker analyses. Participants will return to the investigational center for a follow-up visit to evaluate ADAs, fremanezumab concentrations, biomarkers, and safety (adverse events and concomitant medications) approximately 7.5 months after the last dose of IMP.
This study will examine the influence of stress and fasting on headache activity. Participants will receive both a control and stress session and be randomized to either fasting or not fasting for the visits.
Patients with migraine often report that stressors such as skipping a meal can bring on a migraine whereas some patients report that their migraine improves with food. Few studies to date have looked at the relationship between blood glucose (sugar) and migraine. We are conducting this study to better understand whether or not changes in blood glucose levels can trigger migraine or provide relief during a migraine attack.
To study the clinical characteristics of headache patients with pericranial myofascial trigger points(MTrPs),and to explore the possible pathogenesis of MTrPs,investigators hope to find the possible electrical biomarkers for clinical diagnosis and treatment, and to improve the effect of headache treatment.
This is a randomized, single-blind, placebo controlled trial to evaluate the efficacy of sub-dissociative dose ketamine versus standard care therapy for acute headache management of in patients presenting to the emergency department with headache as the chief compliant.
Post Dural Puncture Headache (PDPH) causes significant short-term disability, prevents mobilisation, affects childcare activities and results in prolonged hospital stay. Initial treatment involves painkillers and if patient fails to respond, an Epidural Blood Patch (EBP). EBP involves taking patient's blood and injecting into the epidural space. It is generally agreed that PDPH is a self-limiting condition and resolves in two weeks. However there is emerging evidence that patients with PDPH could be at an increased risk of developing longstanding (chronic) headaches. Retrospective case studies show that between 28 - 34% of patients who developed PDPH had longstanding headaches at 18 months after the insertion of the epidural. There is also recent evidence of new onset low back pain developing in patients who have received an epidural blood patch that was performed to treat PDPH. Nearly two thirds of patients from a hospital in UK had new onset low back pain after they had received epidural blood patch treatment. Presently, there is no prospective clinical study evaluating the development of longstanding headaches and new onset low back pain after the development of PDPH. Aim of the present study is to evaluate the incidence of longstanding headache after accidental dural (ADP) puncture and the incidence of new onset low back pain after epidural blood patch treatment.
Spinal anesthesia is commonly used for cesarean section.However, the procedure is still have some adverse events such as high spinal block, nerve injuries or postdural puncture headache (PDPH).This is a potential complication of neuraxial anesthesia in clinical practice. The investigators are curious regarding factors determining the incidence of postdural puncture headache in parturients undergoing cesarean section after epidural blood patch.
To investigate headache score and accompanying symptoms during and after inhalation of carbon monoxide.
Cluster headache (CH) is the most common of the trigeminal autonomic cephalalgias and one of the most severe pains known to man, having a large impact on the sufferer's quality of life. A parasympathetic dysfunction in CH has been suggested. The sphenopalatine ganglion has been a target for treatment of primary headache disorders for more than a century but there are several anatomic and physiologic studies that suggest that another cranial parasympathetic ganglion, the otic ganglion (OG), might be also relevant in CH. In this study OG will be blocked with botulinum toxin type A in a pilot study in 10 patients with chronic cluster headache. Recruitment of patients will be solely in Norway. There is no data available to determine the correct dosage of botulinum toxin. A similar neural structure that has been blocked with botulinum toxin in humans is the sphenopalatine ganglion. The investigators injected 10 patients suffering from intractable chronic cluster headache with botulinum toxin in the sphenopalatine ganglion. 5 patients were given 25 IU and 5 patients were given 50 IU. Even though the number of treated patients is low, there did not appear to be differences in the adverse events profile between those who received 25 Iu and those who received 50 IU. The investigators also previously injected 25 IU botulinum toxin towards the sphenopalatine ganglion bilaterally (i.e. 25 IU in each side) in 10 patients suffering from intractable chronic migraine. Doses of up to 25 IU have been injected in structures adjacent to the otic ganglion, for instance in dystonia towards the lateral pterygoid muscle. Thus it was decided for this study on injection towards the otic ganglion, to explore the safety of 12.5 and 25 IU of botulinum toxin.
This trial is a prospective, randomized, feasibility trial with the primary aim of comparing how well oral rapidly dissolving olanzapine controls primary headache pain when compared to the current treatment strategies used in emergency departments which often require intravenous or intramuscular medications.